CN1318094C - Magnetic resonance radiography reinforcing coating composition used for interposing catheter or device and its preparation method - Google Patents
Magnetic resonance radiography reinforcing coating composition used for interposing catheter or device and its preparation method Download PDFInfo
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- CN1318094C CN1318094C CNB2005100389294A CN200510038929A CN1318094C CN 1318094 C CN1318094 C CN 1318094C CN B2005100389294 A CNB2005100389294 A CN B2005100389294A CN 200510038929 A CN200510038929 A CN 200510038929A CN 1318094 C CN1318094 C CN 1318094C
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Abstract
The present invention relates to a magnetic resonance contrast enhancement coating composition used for intervention guide tubes or devices. The present invention comprises a magnetic resonance contrast agent, water soluble resin whose molecular weight is from 2000 to 20000, a solidifying agent and a solvent, wherein the mass ratio of the magnetic resonance contrast agent to the water soluble resin to the solidifying agent is 0.5 to 5: 1 to 5: 1. A coating made of the coating composition is mainly characterized in that the coating has good adhesive force and high flexibility, and has good biocompatibility in organisms or human bodies, the coating has low toxicity, intervention guide tubes or devices with the coating can be clearly displayed by magnetic resonance imaging, the low surface friction under water-wet of the coating has the function of lubrication.
Description
One, technical field
The present invention relates to a class and be used for magnetic resonance radiography reinforcing coating composition of interposing catheter and device and preparation method thereof.
Two, background technology
Many intervene operations need by image to go apparatus manipulation or monitor treatment.Traditional X-ray line perspective, computer tomography (CT) and ultrasonicly be widely used in intervention diagnosis and treatment.The appearance of open magnet technology and fast imaging development of technology, the interventional therapy of magnetic resonance (MRI) guiding is developed.The interventional magnetic resonance imaging (Interventional magnetic resonanceimaging IMRI) has a lot of advantages, as: characteristics such as toxicity is little, radiationless, imaging effect is good have important value in fields such as iconography, interventional therapies.
Yet, the greatest problem of the research of operation nuclear magnetic resonance and clinical application is how to allow interposing catheter and the device can be by nuclear magnetic resonance in the blood vessel, because nearly all device, for example conduit and guiding tube can not send can imaging signal, so that the clear demonstration of these devices is a magnetic resonance imaging become monitor and the guiding blood vessel in get involved the first step of effective tool.Present technology mainly contains initiatively spike and passive spike.
Initiatively spike is the tip that a receiving coil is placed on conduit, thus the locus that can effectively tell conduit.Initiatively spike can be determined the position of instrument tip in a few tens of milliseconds, but the requirement to equipment is very high, place controllability and the intensity that receiving coil has reduced apparatus in instrument tip, the conductive material of scanner unit use can produce and make radio frequency (RF) coil temperature rising (Wildermuth S. by induced current in addition, et al.Radiology, 1997,202,578).
The most frequently used passive spike is the feminine gender contrast that utilizes between device and tissue, and promptly signal deletion and susceptibility artifact make the passive demonstration of access device.Because the time sense of magnetic resonance is low, has only the big apparatus of diameter to rely on signal deletion and obtain to show clearly that the apparatus that diameter is little is difficult to clear demonstration.The pseudo-shadow technology of magnetosensitive sense makes this method can not well show interventional procedure apparatus (Ladd ME., et al., Magn.Reson.Med., 1997,37,891) continuously to the strong dependency of orientation and pulse train parameter.
Now, novel application composition and the coating that is used for interposing catheter and device of the present invention, directly magnetic resonance contrast agent is constructed in the skin of interposing catheter and device, play the effect of the water proton magnetic resonance signal intensity that improves the conduit close region, improved image contrast in the nuclear magnetic resonance, conduit can be developed, for the video picture problem that solves interposing catheter and device provides a new approaches and methods in nuclear magnetic resonance.
Three, summary of the invention
The invention provides a kind of magnetic resonance radiography reinforcing coating composition that is used for interposing catheter and device, its characteristics are to contain magnetic resonance contrast agent, water soluble polymer resin and firming agent in the said composition, are primary solvent with water.
Technical scheme of the present invention is as follows:
A kind of magnetic resonance radiography reinforcing coating composition that is used for interposing catheter or device, it comprises that magnetic resonance contrast agent, molecular weight are 2000~20000 water-soluble resin, firming agent and solvent, and wherein the ratio of their quality is: magnetic resonance contrast agent: water-soluble resin: firming agent=5~10: 5~20: 1.
Above-mentioned magnetic resonance contrast agent can be clinical magnetic resonance contrast agent commonly used such as Gd-DTPA (DTPA: diethylene-triamine pentaacetic acid), Gd-DOTA and derivant thereof, non-ionic contrast agent Gd-DTPA-BMA, blood pond contrast agent MS325, or macromolecular contrast agent P792 and their derivant, also can be the contrast agent that the inventor invents: α, ω-two-N-(2-ethoxy) DTPA bisamide gadolinium, α, ω-two-N-(the amino butyl of 4-) DTPA bisamide gadolinium, α, ω-two-N-{2-[2-(2-amino ethoxy) ethyoxyl] ethyl } DTPA bisamide gadolinium, α, ω-two-N-[2-(poly--the 6-caprolactone base) ethyl] DTPA bisamide gadolinium or α, ω-two-N-[2-(polylactide base) ethyl] DTPA bisamide gadolinium.
The contrast agent of inventor's invention is to be prepared into the amide macromolecular ligand by corresponding amine and DTPA bisgallic acid anhydride reactant, molecular weight is usually 600 to 100, between 000, can have water solublity or fat-soluble, oxide, carbonate, acetate, hydroxide or chloride with gadolinium reacts in water or polar organic solvent again, reaction temperature can change according to the differential responses thing, and general range of reaction temperature is 20 ℃ to 120 ℃, and suitable temperature is 20 ℃ to 80 ℃.Polar organic solvent can be an alcohols, dimethyl formamide, dimethyl sulfoxine, pyridine.Form the non-vanishing situation of coordination compound total electrical charge number, the cation of available physiological compatibility is Na particularly
+, Ca
2+, Cu
2+, MH
4+Or organic derivative such as N-methyl glucoside amine, aminoacid, morpholine, hydramine or electrically charged with anion ratio such as its institute of chloride ion, sulfate radical, phosphate radical or organic acid balance of physiological compatibility, the pH value of regulator solution is in 6.5 to 8.0 scopes.Product can be with conventional method such as method purification such as recrystallization, column chromatography, ion exchange chromatography, dialysis.
Above-mentioned water-soluble resin can be polyvinyl alcohol, polyvinyl pyrrolidone, polymethylacrylic acid-beta-hydroxy ethyl ester, polyacrylic acid-β-hydroxypropyl acrylate, polyacrylic acid, polyacrylamide, poly-N, the homopolymer of N-DMAA, poly-N-isopropyl acrylamide or their binary or terpolymer wherein also can contain components such as butyl polyacrylate, polyvinyl acetate, polymethyl methacrylate, polystyrene in the copolymer.The molecular weight of polymer can be 2000-20,000.Wherein preferred water-soluble resin is the binary or the terpolymer of polyvinyl alcohol, polyvinyl alcohol/vinyl acetate co-polymer, polyvinyl pyrrolidone, be the binary or the terpolymer of vinyl pyrrolidone and acrylic compounds and/or vinyl alcohol, its general structure is suc as formula 3:
Formula 3
A wherein, b, c are respectively natural numbers;
R1 can be hydrogen atom or CH3, COOH;
R2, R3 can be OH, COO (CH
2)
mH, COO (CH
2)
nOH, CON (CH
3)
2, CONH (CH
2)
mH, CONH (CH
2)
nOH, OCOCH
3, C
6H
5, m can be 0-10, n can be 1-10.
Can contain one or more water soluble polymer resins in the above-mentioned magnetic resonance radiography reinforcing coating composition.
Above-mentioned firming agent can be soluble polyurethane, water-soluble epoxy resin, amino resins, also can be glutaraldehyde etc. have the difunctional structure, can with the water-soluble substances of hydroxyl, amino reaction.
Above-mentioned solvent can be water, ethanol, isopropyl alcohol or ethylene glycol, or the mixed solvent of their compositions, the consumption of solvent can be regulated as required, meeting the requirement of coating, and makes the thickness of the dry coating after coating is solidified be generally 0.5~100 micron.The adding of ethanol, isopropyl alcohol, normal-butyl alcohol, ethylene glycol equal solvent helps to improve the drying property and the uniformity of being dried into the membrane process rete, and wherein ethylene glycol can improve the intensity of coating.
Above-mentioned magnetic resonance radiography reinforcing coating composition can contain the medicine with therapeutical effect, for example medicine, polysaccharide or the cancer therapy drug of anticoagulant, treatment thromboembolism.
Above-mentioned magnetic resonance radiography reinforcing coating composition can contain and has chitin and improve biological compatibility of coating.
Magnetic resonance radiography reinforcing coating composition of the present invention can spraying, dip-coating, showering and roller coating etc.After the use, can carry out dry solidification with common dry solidification technology.For example, interposing catheter that coats and device are hung in the hot air drying cabinet, keep proper temperature in the case with dry and/or solidify used magnetic resonance radiography enhancing composition.Baking temperature is 80~120 ℃, and this temperature does not have influence to interposing catheter or device usually.
In order to promote the bonding of coating and interposing catheter and device, require earlier interposing catheter and device surface to be carried out cleaning by degreasing, and its surface is handled with treatment fluid or etching solution.Treatment fluid or etching solution are with the reagent of knowing on the technology, comprise that at different macromolecular materials polyethylene, polypropylene, polrvinyl chloride, olefin polymer and copolymer, nylon, polyester etc. carry out surface treatment.Also can adopt plasma, ultraviolet, laser, and method such as Corona discharge Treatment is carried out surface treatment.
The key property of the coating that application composition of the present invention is made comprises:
Good adhesive force, high flexibility.
In biology or human body, has excellent biological compatibility, low toxicity.
Can well make interposing catheter or device by nuclear magnetic resonance, clear demonstration.
Low mantle friction under water-wet can be played lubricated effect.
Description of drawings:
Fig. 1 is the vertical section sketch map of part goods, comprises interposing catheter 1, and the outer surface of interposing catheter has applied magnetic resonance radiography and strengthened coating 2.
Fig. 2 is the α of embodiment 2, the infrared spectrum of ω-two-N-(the amino butyl of 4-) DTPA bisamide Gd coordination compound contrast agent, with the α of embodiment 3, ω-two-N-{2-[2-(2-amino ethoxy) ethyoxyl] ethyl } infrared spectrum of DTPA bisamide Gd coordination compound contrast agent.
Fig. 3 is the α of embodiment 4, ω-two-N-[2-(poly--6-caprolactone base) ethyl] nmr spectrum of DTPA bisamide Gd coordination compound contrast agent, with the α of embodiment 5, ω-two-N-[2-(polylactide base) ethyl] nmr spectrum of DTPA bisamide Gd coordination compound contrast agent.
Fig. 4 is the nmr spectrum of N-vinyl pyrrolidone/methacrylic acid-beta-hydroxy ethyl ester/vinylacetate terpolymer of the nmr spectrum of N-vinyl pyrrolidone/methacrylic acid-beta-hydroxy ethyl ester copolymer of embodiment 6 and embodiment 8.
Fig. 5 be the outer surface of an interposing catheter applied magnetic resonance radiography reinforcing coating composition coating (comprising embodiment 1,2,3,4,5 kinds of contrast agent) after, interposing catheter overlooks development figure under the magnetic resonance.
Fig. 6 has coated the magnetic resonance of conduit under different time that the coating of the contrast agent preparation of the DTPA-Gd contrast agent and the embodiment of the invention 3 applies to overlook development figure, (a) apply after scanogram immediately, the left side be the Gd-DTPA contrast agent, the right be the contrast agent of embodiment 3; (b) apply in the water of back and soak scanogram after 30 minutes, the image of the conduit of the Gd-DTPA contrast agent on the left side disappears, the right still can see image, illustrate that contrast agent of the present invention is slower than DTPA-Gd contrast agent speed of stripping from coating.
The specific embodiment
Below in conjunction with specific embodiment, technical scheme of the present invention is further described.
The preparation of the novel magnetic resonance contrast agent of embodiment 1-5
Embodiment 1. α, the preparation of ω-two-N-(2-hydroxyethyl) DTPA bisamide contrast agent
A) α, ω-two-N-(2-hydroxyethyl) DTPA bisamide synthetic
With the 6.1g ethanolamine, the 10g triethylamine is dissolved among the DMSO, adds 18g DTPA bisgallic acid acid anhydride, at room temperature reacts 48 hours, obtain the clear yellow solution, ethanol-ether of 0 ℃ (2: 1, v/v) precipitate in the mixed liquor, use ethanol-ether mixed liquor washing several times respectively, vacuum drying, get α, ω-two-N-(2-hydroxyethyl) DTPA bisamide, productive rate 80-90%.
B) α, the preparation of ω-two-N-(2-hydroxyethyl) DTPA bisamide Gd coordination compound (Gd-DTPA-HEA)
With product α in the 10mmol a step, ω-two-N-(2-hydroxyethyl) DTPA bisamide is dissolved in the 20ml redistilled water, adds 3.6g Gd
2O
3Pressed powder, 80 ℃ of following stirring reactions obtained clear solution in 8 hours, and the filtration back concentrates, and precipitates in ethanol, and with ethanol, ether washing several times, vacuum drying gets Gd coordination compound, productive rate 80-90% respectively.Add distilled water or normal saline and be mixed with the aqueous solution use.
C) α, ω-two-N-(4-amino butyl) DTPA bisamide synthetic
With the 6.1g butanediamine, the 10g triethylamine is dissolved among the DMSO, adds 18g DTPA bisgallic acid acid anhydride, at room temperature reacts 48 hours, obtain the clear yellow solution, 0 ℃ alcohol-ether (2: 1, v/v) precipitate in the mixed liquor, use ethanol-ether mixed liquor washing several times respectively, vacuum drying, get α, ω-two-N-(the amino butyl of 4-) DTPA bisamide, productive rate 80-90%.
D) α, the preparation of ω-two-N-(the amino butyl of 4-) DTPA bisamide Gd coordination compound (Gd-DTPA-HEA)
The preparation of b step in the similar embodiment 1, with product α in the above-mentioned c step, ω-two-N-(the amino butyl of 4-) DTPA bisamide and Gd
2O
3Reaction gets Gd coordination compound, productive rate 80-90%.
Embodiment 3. α, ω-two-N-{2-[2-(2-amino ethoxy) ethyoxyl] ethyl } preparation of DTPA bisamide Gd coordination compound contrast agent
E) α, ω-two-N-{2-[2-(2-amino ethoxy) ethyoxyl] ethyl } DTPA bisamide synthetic
With 6.1g two (amino-ethyl) glycol ether, the 10g triethylamine is dissolved among the DMSO, adds 18g DTPA bisgallic acid acid anhydride, at room temperature reacts 48 hours, obtain the clear yellow solution, 0 ℃ alcohol-ether (2: 1, v/v) precipitate in the mixed liquor, use ethanol-ether mixed liquor washing several times respectively, vacuum drying, get α, ω-two-N-{2-[2-(2-amino ethoxy) ethyoxyl] ethyl } the DTPA bisamide, productive rate 80-90%.
F) α, ω-two-N-{2-[2-(2-amino ethoxy) ethyoxyl] ethyl } preparation of DTPA bisamide Gd coordination compound contrast agent
The preparation of b step in the similar embodiment 1, with product α in the above-mentioned e step, ω-two-N-{2-[2-(2-amino ethoxy) ethyoxyl] ethyl } DTPA bisamide and Gd
2O
3Reaction gets Gd coordination compound, productive rate 80-90%.
G) α, ω-two-N-(2-hydroxyethyl) DTPA bisamide synthetic
With the 6.1g ethanolamine, the 10g triethylamine is dissolved among the DMSO, adds 18g DTPA bisgallic acid acid anhydride, at room temperature reacts 48 hours, obtain the clear yellow solution, 0 ℃ alcohol-ether (2: 1, v/v) precipitate in the mixed liquor, use ethanol-ether mixed liquor washing several times respectively, vacuum drying, get α, ω-two-N-(2-hydroxyethyl) DTPA bisamide, productive rate 80-90%.
H) α, ω-two-N-[2-(poly--6-caprolactone base) ethyl] DTPA bisamide synthetic
With product α in the 10mmol g step, ω-two-N-(2-hydroxyethyl) DTPA bisamide is dissolved among the DMSO, adding 4 or 15g 6-caprolactone, and the stannous octoate of catalytic amount, in 90 ℃ of reactions 16 hours, reacted postcooling, 0 ℃ alcohol-ether (2: 1, v/v) precipitation in, use ethanol-ether mixed liquor washing several times respectively, vacuum drying gets α, ω-two-N-[2-(poly--the 6-caprolactone base) ethyl] the DTPA bisamide, productive rate 80-90%.When the 6-caprolactone addition was 4g, the molecular weight of product was 800, and when the 6-caprolactone addition was 15g, the molecular weight of product was 1800.
I) α, ω-two-N-[2-(poly--6-caprolactone base) ethyl] preparation of DTPA bisamide Gd coordination compound (Gd-DTPA-PCL)
With product α in the 10mmol h step, ω-two-N-[2-(poly--6-caprolactone base) ethyl] the DTPA bisamide is dissolved in the 20ml redistilled water, adds 3.6g Gd
2O
3Pressed powder, 80 ℃ of following stirring reactions obtained clear solution in 8 hours, and the filtration back concentrates, and precipitates in ethanol, and with ethanol, ether washing several times, vacuum drying gets Gd coordination compound, productive rate 80-90% respectively.
Embodiment 5 α, ω-two-N-[2-(polylactide base) ethyl] preparation of DTPA bisamide Gd coordination compound contrast agent (Gd-DTPA-PLA)
J) α, ω-two-N-[2-(polylactide base) ethyl] synthetic (DTPA-PCL) of DTPA bisamide
With the product α in 10mmol embodiment 4 step g, ω-two-N-(2-hydroxyethyl) DTPA bisamide is dissolved among the DMSO, adds the 4-15g lactide, and the stannous octoate of catalytic amount, in 90 ℃ of reactions 16 hours, reacted postcooling, 0 ℃ alcohol-ether (2: 1, v/v) precipitation in, use ethanol-ether mixed liquor washing several times respectively, vacuum drying gets α, ω-two-N-[2-(polylactide base) ethyl] the DTPA bisamide, productive rate 80-90%.ε-when the lactide addition was 4g, the molecular weight of product was 600, and when the 6-caprolactone addition was 15g, the molecular weight of product was 1500.
K) α, ω-two-N-[2-(polylactide base) ethyl] preparation of DTPA bisamide Gd coordination compound (Gd-DTPA-PCL)
With product α among the 10mmol step j, ω-two-N-[2-(polylactide base) ethyl] the DTPA bisamide is dissolved in the 20ml redistilled water, adds 3.6g Gd
2O
3Pressed powder, 80 ℃ of following stirring reactions obtained clear solution in 8 hours, and the filtration back concentrates, and precipitates in ethanol, and with ethanol, ether washing several times, vacuum drying gets Gd coordination compound, productive rate 80-90% respectively.
The preparation of embodiment 6-15 water soluble polymer resin
The preparation of embodiment 6N-vinyl pyrrolidone/methacrylic acid-beta-hydroxy ethyl ester copolymer
In 75mmol N-vinylpyrrolidone monomer and the 25mmol methacrylic acid-reactor of beta-hydroxy ethyl ester input with electronic stirring; with the isopropyl alcohol is solvent (80ml); nitrogen protection adds initiator (potassium peroxydisulfate) down, and consumption is the 0.05%-0.5% of monomer weight.Heating was reacted 4-6 hour down at 60-75 ℃, and is then that reacted solution is dry under vacuum condition, just obtains the solid product of N-vinyl pyrrolidone/methacrylic acid-beta-hydroxy ethyl ester copolymer, and productive rate 95%, molecular weight are 17000.Can regulate the N-vinyl pyrrolidone/methacrylic acid-beta-hydroxy ethyl ester copolymer of ratio to obtain different compositions of the amount of substance that the monomer of N-vinyl pyrrolidone and methacrylic acid-beta-hydroxy ethyl ester throws in.
The preparation of embodiment 7N-vinyl pyrrolidone/senecioate-hydroxypropyl acrylate copolymer
The preparation of embodiment 8 N-vinyl pyrrolidone/methacrylic acids-beta-hydroxy ethyl ester/vinylacetate terpolymer
In 75mmolN-vinylpyrrolidone monomer, 25mmol methacrylic acid-beta-hydroxy ethyl ester and the reactor of 25mmol vinylacetate input with electronic stirring; with isopropyl alcohol (or ethanol) is solvent (80ml); nitrogen protection adds initiator down, and consumption is the 0.05%-0.5% of monomer weight.Heating, reacted 4-6 hour down at 60-75 ℃,, just obtain the solid product of N-vinyl pyrrolidone/methacrylic acid-beta-hydroxy ethyl ester vinylacetate terpolymer then with reacted solution drying under vacuum condition, productive rate 95%, molecular weight are 19000.Can regulate the N-vinyl pyrrolidone/methacrylic acid-β hydroxyl ethyl ester/vinylacetate terpolymer of ratio to obtain different compositions of the amount of substance that the monomer of N-vinyl pyrrolidone, methacrylic acid-beta-hydroxy ethyl ester and vinylacetate throws in.
The preparation of embodiment 9N-vinyl pyrrolidone/methacrylic acid-beta-hydroxy ethyl ester/acrylamide copolymer
The preparation of embodiment 10N-vinyl pyrrolidone/senecioate-hydroxypropyl acrylate/acrylamide copolymer
Similar embodiment 9 replaces methacrylic acid among the embodiment 9-beta-hydroxy ethyl ester to participate in reaction senecioate-hydroxypropyl acrylate, and productive rate 95%, molecular weight are 6000.
The preparation of embodiment 11N-vinyl pyrrolidone/acrylic copolymer
A) preparation of the special butyl ester copolymer of N-vinyl pyrrolidone/acrylic acid
B) preparation of N-vinyl pyrrolidone/acrylic copolymer
Product is dissolved in the DMF-water mixed solvent (3: 7 V/V) among the above-mentioned steps a, adds 0.5M HCl aqueous solution, and (addition be mixed solvent volume 10%) is heated to 50 ℃ of reactions 4 hours, precipitates in ether.40 ℃ of vacuum dryings of precipitate obtain the product of white solid, productive rate 90-95% after 24 hours.
The preparation of embodiment 12N-vinyl pyrrolidone/acrylic acid/polyvinyl alcohol terpolymer
A) preparation of the special butyl ester of N-vinyl pyrrolidone/acrylic acid/vinylacetate terpolymer
Similar embodiment 14 replaces methacrylic acid among the embodiment 8-beta-hydroxy ethyl ester to participate in reaction, productive rate 95% the special butyl ester of acrylic acid.
B) preparation of N-vinyl pyrrolidone/acrylic acid/polyvinyl alcohol terpolymer
The step b of similar embodiment 14 replaces the product among the embodiment 14 step a to participate in reaction, productive rate 90-95% product among the present embodiment step a.
The configuration of embodiment 13-17 application composition and the preparation of coating
Embodiment 13
With the magnetic resonance contrast agent of 100 parts of (quality, down together) embodiment 1 preparations, the macromolecule resin of 200 parts of embodiment 6 preparations adds 600 parts of water and 200 parts of isopropyl alcohols dissolvings.After 20 parts of tripolycyanamide-formaldehyde resins of adding (commercially available) mix in this solution, at room temperature stirred 1 hour.Restir was made the application composition of pulpous state in 1 hour.Adopt the method for dip-coating to be coated on application composition on the interposing catheter and dry in 100 ℃ air ambient, make solvent evaporates, coating was solidified after 15 minutes, obtained transparent coating.The nuclear magnetic resonance experiment: 1.5T (Gyroscan Intera MasterT15, Philips company, Holland) magnetic resonance imager is used in the nuclear magnetic resonance experiment, adopt the spin-echo rapid serial of T1 weighting, TR=170ms wherein, TE=2ms, DFOV=23 * 23mm) (down with).Form very bright zone near showing the interposing catheter that has applied coating of the present invention, can fully make interposing catheter and device by nuclear magnetic resonance, clear demonstration.Development figure under its magnetic resonance sees among Fig. 81.
Embodiment 14
With the magnetic resonance contrast agent of 100 parts of embodiment, 2 preparations, the macromolecule resin adduction of 200 parts of embodiment 7 preparations adds 700 parts of water dissolutioies.After 20 parts of soluble polyurethanes of adding (commercially available) mix in this solution, at room temperature stirred 1 hour.Restir was made the application composition of pulpous state in 1 hour.Adopt the method for dip-coating to be coated on application composition on the interposing catheter and dry in 100 ℃ air ambient, make solvent evaporates, coating was solidified after 15 minutes, obtained transparent coating.Development figure under its magnetic resonance sees among Fig. 82.
Embodiment 15
A) magnetic resonance contrast agent that 100 parts of embodiment 3 are prepared, the macromolecule resin of 100 parts of embodiment 8 preparations, 50-100 part chitosan (to improve biological compatibility of coating) (molecular weight 200,000, deacetylation 88%, the two spirits in Nantong) adds 700 parts of water and 100 parts of dissolve with ethanols.After 20 parts of glutaraldehydes of adding mix in this solution, at room temperature stirred 1 hour.Add 1 part of catalyst, restir was made the application composition of pulpous state in 1 hour.Adopt the method for dip-coating to be coated on application composition on the interposing catheter and dry in 100 ℃ air ambient, make solvent evaporates, coating was solidified after 15 minutes, obtained transparent coating.Development figure under its magnetic resonance sees among Fig. 83.
B) with 100 parts of commercially available DTPA-Gd magnetic resonance contrast agents, the macromolecule resin of 100 parts of embodiment 8 preparations, 50-100 part chitosan (to improve biological compatibility of coating) (molecular weight 200,000, deacetylation 88%, the two spirits in Nantong) adds 700 parts of water and 100 parts of ethylene glycol dissolvings.After 20 parts of glutaraldehydes of adding mix in this solution, at room temperature stirred 1 hour.Add 1 part of catalyst, restir was made the application composition of pulpous state in 1 hour.Adopt the method for dip-coating to be coated on application composition on the interposing catheter and dry in 100 ℃ air ambient, make solvent evaporates, coating was solidified after 15 minutes, obtained transparent coating.
With b) coating that makes of step the DTPA-Gd contrast agent conduit and a) coating that makes of step the α of the embodiment of the invention 3 preparations, ω-two-N-{2-[2-(2-amino ethoxy) ethyoxyl] ethyl } conduit of DTPA bisamide Gd coordination compound contrast agent develops under magnetic resonance at different time, scanogram immediately after coating, apply Gd-DTPA contrast agent and α, ω-two-N-{2-[2-(2-amino ethoxy) ethyoxyl] ethyl } conduit of DTPA bisamide Gd coordination compound contrast agent can both know development, but after coating, soak scanogram after 30 minutes in the water, the image that applies the conduit of Gd-DTPA contrast agent disappears, apply α of the present invention, ω-two-N-{2-[2-(2-amino ethoxy) ethyoxyl] ethyl } the conduit image of DTPA bisamide Gd coordination compound contrast agent is still more clear, illustrates that contrast agent of the present invention is slower than Gd-DTPA contrast agent speed of stripping from coating.
Embodiment 16
With the magnetic resonance contrast agent of 100 parts of embodiment, 4 preparations, 800 parts of water dissolutioies of macromolecule resin adduction of 200 parts of embodiment 9 preparations.After 10 parts of water-soluble epoxy resins of adding (commercially available) mix in this solution, at room temperature stirred 1 hour.Restir was made the application composition of pulpous state in 1 hour.Adopt the method for dip-coating to be coated on application composition on the interposing catheter and dry in 100 ℃ air ambient, make solvent evaporates, coating was solidified after 15 minutes, obtained transparent coating.Development figure under its magnetic resonance sees among Fig. 84.
Embodiment 17
With the magnetic resonance contrast agent of 100 parts of embodiment, 5 preparations, 900 parts of water dissolutioies of macromolecule resin adduction of 200 parts of embodiment 10 preparations.After 20 parts of soluble polyurethanes of adding (commercially available) mix in this solution, at room temperature stirred 1 hour.Restir was made the application composition of pulpous state in 1 hour.Adopt the method for dip-coating to be coated on application composition on the interposing catheter and dry in 100 ℃ air ambient, make solvent evaporates, coating was solidified after 15 minutes, obtained transparent coating.Development figure under its magnetic resonance sees among Fig. 85.
The macromolecule resin that the macromolecule resin alternate embodiment 10 for preparing with embodiment 11~15 prepares repeats above-mentioned experiment, obtains similar result.
Embodiment 18
The interposing catheter that has applied application composition of the present invention is inserted in the water of test tube, with interior have deuterium for the capillary tube of water as external standard, (300MHZ 7T) goes up the spin one lattice relaxation time T 1 of measuring proton in the solution at Bruker XP300 NMR spectrometer with the wraparound restoring method.The T1 test result shows, compares with pure water (1500ms), inserts T1 (300ms) value that records behind the conduit and obviously reduces, and magnetic resonance signal strengthens.
Claims (6)
1. magnetic resonance radiography reinforcing coating composition that is used for interposing catheter or device, it is characterized in that: it comprises magnetic resonance contrast agent, molecular weight is 2000~20000 water-soluble resins, firming agent and solvent, wherein the ratio of their quality is: magnetic resonance contrast agent: water-soluble resin: firming agent=5~10: 5~20: 1, wherein: described water-soluble resin is a polyvinyl alcohol, polyvinyl pyrrolidone, polymethylacrylic acid-beta-hydroxy ethyl ester, polyacrylic acid-β-hydroxypropyl acrylate, polyacrylic acid, polyacrylamide, poly-N, the homopolymer of N-DMAA or poly-N-isopropyl acrylamide or their binary or terpolymer, described firming agent is a soluble polyurethane, water-soluble epoxy resin, amino resins, or have the difunctional structure, energy and hydroxyl, the water-soluble substances of amino reaction.
2. application composition according to claim 1 is characterized in that: described water-soluble resin is the binary or the terpolymer of polyvinyl alcohol, polyvinyl alcohol/vinyl acetate co-polymer, polyvinyl pyrrolidone.
3. application composition according to claim 1 is characterized in that: contain one or more water soluble polymer resins.
4. application composition according to claim 1 is characterized in that: solvent is water, ethanol, isopropyl alcohol or ethylene glycol, or the mixed solvent of their compositions.
5. application composition according to claim 1 is characterized in that: contain the medicine with therapeutical effect.
6. application composition according to claim 1 is characterized in that: contain chitin.
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